Molecular biology of muscle development
Identifieur interne : 001125 ( Main/Exploration ); précédent : 001124; suivant : 001126Molecular biology of muscle development
Auteurs :Source :
- Journal of Cellular Biochemistry [ 0730-2312 ] ; 1994-02-26.
English descriptors
- Teeft :
- Abnormality, Acetylcholine, Achr, Actin, Activator, Adenoviral, Adult muscle, Adult muscles, Allele, Amhc, Amino, Amino acids, Anderson cancer center, Antisense, April, Assay, Atrial, Atrium, Avian, Axial structures, Basal, Baylor college, Bfgf, Bhlh, Bhlh proteins, Binding domain, Binding proteins, Binding site, Binding sites, Biochemistry, Biol, Biological chemistry, Biological sciences, Biology, Braunschweig, Buckingham, Cardiac, Cardiac muscle, Cardiac myocytes, Cardiac troponin, Cardiology, Cardiomyocytes, Cardiotin, Cardiovascular, Carg, Caudal, Caudal somites, Cdna, Cdnas encoding, Cedex, Cell, Cell biol, Cell biology, Cell cycle, Cell line, Cell lines, Cell proliferation, Cell types, Chain gene, Charlestown, Chick, Chick embryos, Chimeric, Chromosome, Ckii, Clone, Cofilin, Contractile, Control mice, Creatine, Ctnt, Cultured cells, Cytoplasmic, Degeneration, Deletion, Deletion analysis, Denervation, Dermatome, Dermomyotome, Desmin, Developmental biology, Developmentally, Differential expression, Differentially, Differentiation, Digitorum, Dimerization, Distamycin, Domain, Dorsal, Drosophila, Drosophila melanogaster, Duchenne, Dystrophic, Dystrophin, Dystrophy, Early stages, Ectopic, Electrophoretic, Elucidate, Embryo, Embryogenesis, Embryonic, Embryonic development, Encodes, Encoding, Endoderm, Endogenous, Enhancer, Exogenous, Exon, Experimental pathology, Explants, Expression pattern, Expression patterns, Extracellular, Fetal, Fgfl, Fibre, Fibroblast, Fibronectin, Filament, First intron, Gastrulation, Gene, Gene expression, Gene family, Genetics, Genomic, Growth factor, Growth factors, Hauschka, Heart development, Heterodimers, Heterologous, High levels, Higher levels, Hinding, Hindlimb, Homeobox, Homeotic, Homolog, Homologue, Homologues, Homology, Hybrid, Hybridisation, Hybridization, Hypertrophic, Hypertrophy, Igfs, Immunofluorescence, Important role, Inductive, Innervation, Institut pasteur, Integrin, Intracellular, Intron, Irna, Isoform, Isoforms, Jeffrey, Kinase, Labelling, Lacz, Laminin, Larva, Lateral, Light chains, Limb, Limb buds, Limb muscle, Limb muscles, Lineage, Longus, Luciferase, Lyons, Mads, Mammal, Medial, Mef2, Mef2a, Mef2c, Mefp, Mefz, Mefz family, Melanogaster, Mesenchymal, Mesoderm, Mesodermal, Mesodermal cells, Message levels, Mhox, Minigene, Mitogen, Mlc2, Mlck, Mlcl, Mlcp, Molecular basis, Molecular biology, Molecular mechanisms, Molecular pharmacology, Monoclonal, Monoclonal antibody, Morphogenesis, Moult, Mouse, Mouse embryogenesis, Mouse embryos, Mrf4, Mrf4 activity, Mrna, Mrna levels, Multigene, Murine, Muscle, Muscle cell differentiation, Muscle cells, Muscle development, Muscle differentiation, Muscle fibers, Muscle formation, Musclespecific, Muscular dystrophy, Muscular dystrophy association, Musculature, Mutagenesis, Mutant, Mutation, Myf5, Myhc, Myoblast, Myoblast fusion, Myoblasts, Myocardium, Myocyte, Myocytes, Myod, Myod family, Myofibers, Myofibril, Myogenesis, Myogenic, Myogenic bhlh proteins, Myogenic cells, Myogenic differentiation, Myogenic factors, Myogenic lineage, Myogenic precursors, Myogenic program, Myogenin, Myogenin gene, Myohlasts, Myosin, Myosin light chain, Myotomal, Myotome, Myotome formation, Myotomes, Myotonic, Myotube, Myotubes, Myotuhes, Nadia, Nadia rosenthal, Ncam, Neonatal, Nestin, Neural, Neural tube, Neuromuscular, Neuromuscular junction, Nonmuscle, Northern blot analysis, Notochord, Nuclear extracts, Oligonucleotide, Oligonucleotides, Oncogene, Other members, Overexpression, Paraxial mesoderm, Paris cedex, Pasteur, Pathway, Patterning, Pax7, Pdgfbb, Pharmacology, Phenotype, Phosphorylated, Phosphorylation, Plasmid, Postnatal, Precursor, Preliminary results, Presomitic, Previous work, Primary cultures, Primer, Primordium, Progenitor, Proliferative, Promoter, Promoter activity, Protein, Protein kinase, Putative, Quail, Receptor, Recombinant, Recombinant proteins, Recombination, Regenerated, Regeneration, Regulator, Regulatory elements, Regulatory sequences, Reporter gene, Reticulum, Retroviral, Rna, Rnase, Rosenthal, Roux, Sarcomere, Sarcomeric, Satellite cells, Sclerotome, Segmental, Segmental plate, Segmentation, Sequence elements, Sequencing, Serca, Serca2, Sercai, Siru, Skeletal, Skeletal muscle, Skeletal muscle cells, Skeletal muscle development, Skeletal muscle differentiation, Skeletal muscle fibers, Skeletal muscles, Skeletal myogenesis, Slow myhc, Slow myosin, Smooth muscle, Smooth muscle cells, Snon, Soleus, Somite, Somitic, Stably, Striated, Striated muscle, Subclones, Subset, Subtractive, Subunit, Superfast, Tata, Terminal differentiation, Tgfr, Thyroid hormone, Tissue culture, Titin, Tnis, Transactivation, Transcript, Transcription, Transcription factor, Transcription factors, Transcription initiation site, Transcriptional, Transcriptional activation, Transcriptional activity, Transcriptional regulation, Transfected, Transfected cells, Transfection, Transfections, Transgene, Transgene expression, Transgenic, Transgenic animals, Transgenic mice, Transiently, Transplantation, Tres, Tropomyosin, Troponin, Univ, Untranslated, Utrophin, Ventral, Ventricular, Vertebrate, Vifro, Vivo, Vsmc, Wild type, Xenopus, Xmyod, Zbul, Zebrafish.
Url:
DOI: 10.1002/jcb.240560810
Affiliations:
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Le document en format XML
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<title level="j" type="abbrev">J. Cell. Biochem.</title>
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<profileDesc><textClass><keywords scheme="Teeft" xml:lang="en"><term>Abnormality</term>
<term>Acetylcholine</term>
<term>Achr</term>
<term>Actin</term>
<term>Activator</term>
<term>Adenoviral</term>
<term>Adult muscle</term>
<term>Adult muscles</term>
<term>Allele</term>
<term>Amhc</term>
<term>Amino</term>
<term>Amino acids</term>
<term>Anderson cancer center</term>
<term>Antisense</term>
<term>April</term>
<term>Assay</term>
<term>Atrial</term>
<term>Atrium</term>
<term>Avian</term>
<term>Axial structures</term>
<term>Basal</term>
<term>Baylor college</term>
<term>Bfgf</term>
<term>Bhlh</term>
<term>Bhlh proteins</term>
<term>Binding domain</term>
<term>Binding proteins</term>
<term>Binding site</term>
<term>Binding sites</term>
<term>Biochemistry</term>
<term>Biol</term>
<term>Biological chemistry</term>
<term>Biological sciences</term>
<term>Biology</term>
<term>Braunschweig</term>
<term>Buckingham</term>
<term>Cardiac</term>
<term>Cardiac muscle</term>
<term>Cardiac myocytes</term>
<term>Cardiac troponin</term>
<term>Cardiology</term>
<term>Cardiomyocytes</term>
<term>Cardiotin</term>
<term>Cardiovascular</term>
<term>Carg</term>
<term>Caudal</term>
<term>Caudal somites</term>
<term>Cdna</term>
<term>Cdnas encoding</term>
<term>Cedex</term>
<term>Cell</term>
<term>Cell biol</term>
<term>Cell biology</term>
<term>Cell cycle</term>
<term>Cell line</term>
<term>Cell lines</term>
<term>Cell proliferation</term>
<term>Cell types</term>
<term>Chain gene</term>
<term>Charlestown</term>
<term>Chick</term>
<term>Chick embryos</term>
<term>Chimeric</term>
<term>Chromosome</term>
<term>Ckii</term>
<term>Clone</term>
<term>Cofilin</term>
<term>Contractile</term>
<term>Control mice</term>
<term>Creatine</term>
<term>Ctnt</term>
<term>Cultured cells</term>
<term>Cytoplasmic</term>
<term>Degeneration</term>
<term>Deletion</term>
<term>Deletion analysis</term>
<term>Denervation</term>
<term>Dermatome</term>
<term>Dermomyotome</term>
<term>Desmin</term>
<term>Developmental biology</term>
<term>Developmentally</term>
<term>Differential expression</term>
<term>Differentially</term>
<term>Differentiation</term>
<term>Digitorum</term>
<term>Dimerization</term>
<term>Distamycin</term>
<term>Domain</term>
<term>Dorsal</term>
<term>Drosophila</term>
<term>Drosophila melanogaster</term>
<term>Duchenne</term>
<term>Dystrophic</term>
<term>Dystrophin</term>
<term>Dystrophy</term>
<term>Early stages</term>
<term>Ectopic</term>
<term>Electrophoretic</term>
<term>Elucidate</term>
<term>Embryo</term>
<term>Embryogenesis</term>
<term>Embryonic</term>
<term>Embryonic development</term>
<term>Encodes</term>
<term>Encoding</term>
<term>Endoderm</term>
<term>Endogenous</term>
<term>Enhancer</term>
<term>Exogenous</term>
<term>Exon</term>
<term>Experimental pathology</term>
<term>Explants</term>
<term>Expression pattern</term>
<term>Expression patterns</term>
<term>Extracellular</term>
<term>Fetal</term>
<term>Fgfl</term>
<term>Fibre</term>
<term>Fibroblast</term>
<term>Fibronectin</term>
<term>Filament</term>
<term>First intron</term>
<term>Gastrulation</term>
<term>Gene</term>
<term>Gene expression</term>
<term>Gene family</term>
<term>Genetics</term>
<term>Genomic</term>
<term>Growth factor</term>
<term>Growth factors</term>
<term>Hauschka</term>
<term>Heart development</term>
<term>Heterodimers</term>
<term>Heterologous</term>
<term>High levels</term>
<term>Higher levels</term>
<term>Hinding</term>
<term>Hindlimb</term>
<term>Homeobox</term>
<term>Homeotic</term>
<term>Homolog</term>
<term>Homologue</term>
<term>Homologues</term>
<term>Homology</term>
<term>Hybrid</term>
<term>Hybridisation</term>
<term>Hybridization</term>
<term>Hypertrophic</term>
<term>Hypertrophy</term>
<term>Igfs</term>
<term>Immunofluorescence</term>
<term>Important role</term>
<term>Inductive</term>
<term>Innervation</term>
<term>Institut pasteur</term>
<term>Integrin</term>
<term>Intracellular</term>
<term>Intron</term>
<term>Irna</term>
<term>Isoform</term>
<term>Isoforms</term>
<term>Jeffrey</term>
<term>Kinase</term>
<term>Labelling</term>
<term>Lacz</term>
<term>Laminin</term>
<term>Larva</term>
<term>Lateral</term>
<term>Light chains</term>
<term>Limb</term>
<term>Limb buds</term>
<term>Limb muscle</term>
<term>Limb muscles</term>
<term>Lineage</term>
<term>Longus</term>
<term>Luciferase</term>
<term>Lyons</term>
<term>Mads</term>
<term>Mammal</term>
<term>Medial</term>
<term>Mef2</term>
<term>Mef2a</term>
<term>Mef2c</term>
<term>Mefp</term>
<term>Mefz</term>
<term>Mefz family</term>
<term>Melanogaster</term>
<term>Mesenchymal</term>
<term>Mesoderm</term>
<term>Mesodermal</term>
<term>Mesodermal cells</term>
<term>Message levels</term>
<term>Mhox</term>
<term>Minigene</term>
<term>Mitogen</term>
<term>Mlc2</term>
<term>Mlck</term>
<term>Mlcl</term>
<term>Mlcp</term>
<term>Molecular basis</term>
<term>Molecular biology</term>
<term>Molecular mechanisms</term>
<term>Molecular pharmacology</term>
<term>Monoclonal</term>
<term>Monoclonal antibody</term>
<term>Morphogenesis</term>
<term>Moult</term>
<term>Mouse</term>
<term>Mouse embryogenesis</term>
<term>Mouse embryos</term>
<term>Mrf4</term>
<term>Mrf4 activity</term>
<term>Mrna</term>
<term>Mrna levels</term>
<term>Multigene</term>
<term>Murine</term>
<term>Muscle</term>
<term>Muscle cell differentiation</term>
<term>Muscle cells</term>
<term>Muscle development</term>
<term>Muscle differentiation</term>
<term>Muscle fibers</term>
<term>Muscle formation</term>
<term>Musclespecific</term>
<term>Muscular dystrophy</term>
<term>Muscular dystrophy association</term>
<term>Musculature</term>
<term>Mutagenesis</term>
<term>Mutant</term>
<term>Mutation</term>
<term>Myf5</term>
<term>Myhc</term>
<term>Myoblast</term>
<term>Myoblast fusion</term>
<term>Myoblasts</term>
<term>Myocardium</term>
<term>Myocyte</term>
<term>Myocytes</term>
<term>Myod</term>
<term>Myod family</term>
<term>Myofibers</term>
<term>Myofibril</term>
<term>Myogenesis</term>
<term>Myogenic</term>
<term>Myogenic bhlh proteins</term>
<term>Myogenic cells</term>
<term>Myogenic differentiation</term>
<term>Myogenic factors</term>
<term>Myogenic lineage</term>
<term>Myogenic precursors</term>
<term>Myogenic program</term>
<term>Myogenin</term>
<term>Myogenin gene</term>
<term>Myohlasts</term>
<term>Myosin</term>
<term>Myosin light chain</term>
<term>Myotomal</term>
<term>Myotome</term>
<term>Myotome formation</term>
<term>Myotomes</term>
<term>Myotonic</term>
<term>Myotube</term>
<term>Myotubes</term>
<term>Myotuhes</term>
<term>Nadia</term>
<term>Nadia rosenthal</term>
<term>Ncam</term>
<term>Neonatal</term>
<term>Nestin</term>
<term>Neural</term>
<term>Neural tube</term>
<term>Neuromuscular</term>
<term>Neuromuscular junction</term>
<term>Nonmuscle</term>
<term>Northern blot analysis</term>
<term>Notochord</term>
<term>Nuclear extracts</term>
<term>Oligonucleotide</term>
<term>Oligonucleotides</term>
<term>Oncogene</term>
<term>Other members</term>
<term>Overexpression</term>
<term>Paraxial mesoderm</term>
<term>Paris cedex</term>
<term>Pasteur</term>
<term>Pathway</term>
<term>Patterning</term>
<term>Pax7</term>
<term>Pdgfbb</term>
<term>Pharmacology</term>
<term>Phenotype</term>
<term>Phosphorylated</term>
<term>Phosphorylation</term>
<term>Plasmid</term>
<term>Postnatal</term>
<term>Precursor</term>
<term>Preliminary results</term>
<term>Presomitic</term>
<term>Previous work</term>
<term>Primary cultures</term>
<term>Primer</term>
<term>Primordium</term>
<term>Progenitor</term>
<term>Proliferative</term>
<term>Promoter</term>
<term>Promoter activity</term>
<term>Protein</term>
<term>Protein kinase</term>
<term>Putative</term>
<term>Quail</term>
<term>Receptor</term>
<term>Recombinant</term>
<term>Recombinant proteins</term>
<term>Recombination</term>
<term>Regenerated</term>
<term>Regeneration</term>
<term>Regulator</term>
<term>Regulatory elements</term>
<term>Regulatory sequences</term>
<term>Reporter gene</term>
<term>Reticulum</term>
<term>Retroviral</term>
<term>Rna</term>
<term>Rnase</term>
<term>Rosenthal</term>
<term>Roux</term>
<term>Sarcomere</term>
<term>Sarcomeric</term>
<term>Satellite cells</term>
<term>Sclerotome</term>
<term>Segmental</term>
<term>Segmental plate</term>
<term>Segmentation</term>
<term>Sequence elements</term>
<term>Sequencing</term>
<term>Serca</term>
<term>Serca2</term>
<term>Sercai</term>
<term>Siru</term>
<term>Skeletal</term>
<term>Skeletal muscle</term>
<term>Skeletal muscle cells</term>
<term>Skeletal muscle development</term>
<term>Skeletal muscle differentiation</term>
<term>Skeletal muscle fibers</term>
<term>Skeletal muscles</term>
<term>Skeletal myogenesis</term>
<term>Slow myhc</term>
<term>Slow myosin</term>
<term>Smooth muscle</term>
<term>Smooth muscle cells</term>
<term>Snon</term>
<term>Soleus</term>
<term>Somite</term>
<term>Somitic</term>
<term>Stably</term>
<term>Striated</term>
<term>Striated muscle</term>
<term>Subclones</term>
<term>Subset</term>
<term>Subtractive</term>
<term>Subunit</term>
<term>Superfast</term>
<term>Tata</term>
<term>Terminal differentiation</term>
<term>Tgfr</term>
<term>Thyroid hormone</term>
<term>Tissue culture</term>
<term>Titin</term>
<term>Tnis</term>
<term>Transactivation</term>
<term>Transcript</term>
<term>Transcription</term>
<term>Transcription factor</term>
<term>Transcription factors</term>
<term>Transcription initiation site</term>
<term>Transcriptional</term>
<term>Transcriptional activation</term>
<term>Transcriptional activity</term>
<term>Transcriptional regulation</term>
<term>Transfected</term>
<term>Transfected cells</term>
<term>Transfection</term>
<term>Transfections</term>
<term>Transgene</term>
<term>Transgene expression</term>
<term>Transgenic</term>
<term>Transgenic animals</term>
<term>Transgenic mice</term>
<term>Transiently</term>
<term>Transplantation</term>
<term>Tres</term>
<term>Tropomyosin</term>
<term>Troponin</term>
<term>Univ</term>
<term>Untranslated</term>
<term>Utrophin</term>
<term>Ventral</term>
<term>Ventricular</term>
<term>Vertebrate</term>
<term>Vifro</term>
<term>Vivo</term>
<term>Vsmc</term>
<term>Wild type</term>
<term>Xenopus</term>
<term>Xmyod</term>
<term>Zbul</term>
<term>Zebrafish</term>
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